Laboratory course in electricity and magnetism
Course: Physics
Structural unit: Faculty of Physics
Title
Laboratory course in electricity and magnetism
Code
ОК 29.
Module type
Обов’язкова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2023/2024
Semester/trimester when the component is delivered
3 Semester
Number of ECTS credits allocated
3
Learning outcomes
Knowledge of the fundamental laws of electromagnetic phenomena and their important practical applications, safety rules for experimental research, methods of measurement.
Having an idea of the relationship between individual phenomena and processes, the limitations of the measurement methods used, the accuracy of the results, and possible sources of errors.
Ability to present and analyze experimental results, work with simple experimental equipment, evaluate measurement errors, process and explain the results, evaluate the order of the studied quantities, their accuracy and degree of reliability, calculate measurement errors and formulate conclusions, work independently with educational, methodical and reference literature on the course of electricity and magnetism
Form of study
Full-time form
Prerequisites and co-requisites
Knowledge of the definitions of the basic physical quantities introduced in the course of electricity and magnetism, the fundamental laws of electromagnetic phenomena and important applied aspects.
Ability to formulate the basic principles and laws of electricity and magnetism, explain their physical content, independently perform laboratory work on the course of electricity and magnetism, process and explain the results, calculate measurement errors and formulate conclusions, work independently with educational and reference literature on electricity and magnetism.
Skills of working with measuring devices, searching and analyzing the reference data, working with software for data processing, working in groups.
Course content
Rheostat and voltage divider. Compensation method in electrical measurements. Dependence of resistance of metals and semiconductors on temperature. Study of electrostatic fields. Processes in an alternating current circuit. Voltage drop on reactive resistance. Relaxation oscillations in a neon lamp circuit. Study of the work of the mirror galvanometer. Measurement of magnetic field strength along the solenoid axis by induction method. The phenomenon of hysteresis in ferromagnetic. Determination of the concentration of charge carriers in semiconductors by the Hall effect. Two-wire line. Peltier effect. Expansion of the scale of the microammeter and voltmeter. Study of the p-n junction.
Recommended or required reading and other learning resources/tools
1. Electricity and magnetism. Laboratory course / V.M. Kravchenko, V.Yu. Kudrya, Yu.O. Myagchenko, V.M. Yashchuk. - 2019.
2. Gumenyuk A.F. Electricity and magnetism. - 2008.
3. Sivukhin D.V. General course of physics: T. III. Electricity. - 2004.
4. Saveliev I.V. Course of general physics: T. 2. Electricity and magnetism. Waves. Optics. - 1988.
5. Saveliev I.V. General physics course: Vol. 3. Quantum optics. Atomic physics. Solid-state physics. Physics of the atomic nucleus and elementary particles. - 1987.
6. Kalashnikov S.G. Electricity. - 2003.
7. Borbat O.M. et al. Laboratory course in electricity. - 1964.
8. Laboratory course in physics: Electricity and optics / Ed. by V.I. Iveronova. - 1968.
9. Kozlov V.I. Laboratory course in general physics. Electricity and magnetism. - 1987.
10. Bletskan D.I., Gorvat A.A., Kabatsiy V.M. Electrical measurements. - 2008.
11. Aluker Sh.M. Electrical measuring instruments. - 1976.
Planned learning activities and teaching methods
Laboratory works, student's independent work
Assessment methods and criteria
Conduction of laboratory works the preparation of written reports and oral answers.
Forms of student assessment:
semester assessment - assessment of the level of performance of laboratory work, preparation, and submission of written reports. The student can obtain a maximum of 10 points for each laboratory work (maximum 100 points for 10 works);
final grade - grade for the test (defined as the sum of points received by the student during the semester).
Admission requirement: during the semester the student must score at least 60 points for the performance, design and delivery of laboratory works.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Vladyslav
Yuriiovych
Kudria
Department of Experimental Physics
Faculty of Physics
Faculty of Physics
Vladyslav
Mykolaiovych
Kravchenko
Department of Experimental Physics
Faculty of Physics
Faculty of Physics
Yrii
Oleksandrovych
Miagchenko
Department of Experimental Physics
Faculty of Physics
Faculty of Physics
Departments
The following departments are involved in teaching the above discipline
Department of Experimental Physics
Faculty of Physics
Department of Experimental Physics
Faculty of Physics
Department of Experimental Physics
Faculty of Physics